DE667313C - Method for producing an electrical resistance of a predetermined size - Google Patents

Description

Method for producing an electrical resistance of predetermined Size The invention relates to a method for manufacturing an electrical Resistance of a predetermined size, - by which the internalization is exactly predetermined Ohmic values and, if variable resistances are produced, an exact gradation or subdivision is made possible.

It has been proposed to use electrical resistors, in particular such high. Resistance to be produced by making a light-sensitive Layer of a metal salt, e.g. B. a bromide silver layer or an iodosilver layer, on a carrier made of non-conductive material, this layer applies in a certain way Way exposed and then, developed and fixed. With such resistances is used the only conductor used is the layer that consists of the metallic particles and that is reduced by exposure and development, the resistance this layer depends to a large extent on the weak contact that exists between the numerous individual particles of the conductor, e.g. B. of silver, available is. However, this method of manufacturing resistors is not suitable for making a resistor of a predetermined magnitude; the resistance remains also not evenly in operation and cannot conduct any amount of electricity. It has been shown that arcing occurs between the individual particles occurs, whereby such a resistance makes strong noises which it for the use in high frequency technology. and render them useless in teleponies. As has been shown, the resistances are subject to changes during operation and can only handle small amounts of electricity because they are very easily overheated. In addition, they are very expensive because of the material used. at After all, it is extraordinarily difficult to convert the metallic particle chem so that the resistance is a very specific one Gets value.

These previously existing disadvantages are eliminated by the invention. It ties in with the well-known process in which the resistance is created by a mixture is formed, which is electrically conductive by exposure and subsequent development is made. This mixture is first an electrically conductive material with suitable resistance and current conductivity in finely divided form or in suspended or dispersed form added, whereupon the mixture by exposure to light and develop in one corresponding to the desired resistance value Extent is converted.

The addition of the conductor of suitable resistance, e.g. B. of coal, enables the production of low-resistance resistors, which are in the The main thing is that it demands the, and also gives a considerable amount of savings against such resistors, which are composed of pure silver and the like. The right choice of additive-makes it possible to make resistance elements entirely certain characteristics, which because of their independence from a Grounds with weak internal contacts are free from internal arcing, which the resistor works completely silently during operation. Next is the conductivity higher while the warming is less. For elements with variable resistance the addition of the conductive material increases the contact area with the moving material Contact member comes into contact. The reduction in photosensitive components the new mixture creates a relatively fine control of the resistance value of the element, so that, in connection with the choice of the additional conductor, the resistance value is perfect can be set precisely. The resistance is about one after completion completely changeable for a long period of time.

When carrying out the invention, it is expedient to proceed as follows; that he a suitable carrier, e.g. B. celluloid, cellulose acetate, paper or the like, selects, which is covered with an adhesive layer. This top layer consists from a photosensitive mass with the additive, which is applied to the carrier will. The photosensitive mass applied to the carrier is then exposed to the action subjected to active light, using a mask, stencil or optical wedge used. These stencils are opposite to an electromagnetic one Arranged beams of suitable length supplying illumination source. It then follows Development and fixation in the usual way of photographic technology.

The mixture is made of bromide silver, chlorine silver, iodized silver or the like. and charcoal with colloidal or approximately colloidal grain size.

The invention is to be explained in more detail with reference to the drawing.

Fig. T shows a plan view of a mask for producing a graded resistance.

FIG. 2 shows a resistor which is produced with the aid of a mask according to FIG. 0 Fig. 3 shows schematically a plant for the production of resistors according to the invention in a continuous operation, and ;. #. Fig. q. graphically represents a changeable A resistor or a potentiometer ., @% which a resistor 'according to FIG is etched. A suitable carrier To (FIG. 2) made of celluloid, cellulose acetate, paper or the like is coated with an adhesive layer made of a photosensitive mass. A nitrocellulose lacquer has proven to be a suitable layer when using a Cell: uloid carrier - which contains bromide silver as the light-sensitive material and carbon as the conductor. One for attachment to a celluloid carrier or 4-l. suitable light-sensitive lacquer can be produced in the following way pyroxylin (high viscosity) ... 1.5099 silver nitrate ................ TT, oo g, ammoni: umbromid ..... ..... 6.2592 coal (fine soot) .......... 0.759, ethyl alcohol ................ 21.0 g, ammoniacal ethyl alcohol 4.009 , Methyl alcohol .............. 4.009, ether ..................... 12.00 g, acetone .... ................ 6.0o g, diacetone alcohol ............. 0.5099 triacetin ........... ....... T, oo g.

During the production of the lacquer, a mixture of all of the above is initially used Ingredients except ammonium bromide, silver nitrate and carbon. The ammonium bromide and the silver nitrate are powdered in small amounts at the same time added to the mixture, and finally the charcoal is mixed in. The whole mixture becomes stainless during the addition of the last three ingredients Steel or glass stirrers constantly stirred. During this and the following stages During manufacture, care must be taken to ensure that there are no undesirable effects of light arise ..., The low solubility of silver nitrate and ammonium bromide in alcohol enables these two components to fully react with each other and To form silver bromide, which in the presence of disperse nitrocellulose as colloidal solution is generated. The size of the bromide silver particles can vary from known from the photographic technique due to the presence of ammonium, influenced by the time and the temperature during the scrambled egg. Triacetin is used for plasticizing. In addition, the mixture can still small Amounts of resin and gum ester are added.

Once the support by adding the photosensitive layer is prepared in the manner described above, he will be subject to the action of active light that z. B. by means of a mercury discharge tube or a Arc lamp is produced, using a suitable stencil or mask, as shown in Fig. I at ii, or an optical wedge or Gap is used if necessary on the coated part of the Carrier io to regulate falling light. After exposure, the film strip becomes. developed, fixed, etc. as in the development of a photographic film is common. The washing is expediently carried out in pure alcohol. aside from that it is advantageous to wash the exposed film strip through a bath of Ammoni.umb.romid in alcohol to avoid obscuring before developing. as Developer can be used pyrogallol in ammoniacal alcohol, and fixing can be done with the help of a bath of ammonium thiocyanate in ammoniacal alcohol.

In one produced in this way and illustrated in FIG Resistance is the ohmic value of the resistance due to the composition of the photosensitive layers and the extent or extent of activation the photosensitive layer is determined while the division of the film is made the shape of the mask i i shown in FIG.

In many cases it is advantageous not to produce individual resistance strips, but to carry out the fabrication in one continuous operation. In Fig. 3 shows an on position with which the work is carried out continuously can be.

As this figure shows, a tape 13 is made of celluloid, paper or the like fed from a supply roller 14 via a tensioning roller 15 to a drum 16, on which it is carried out through an emulsion bath 17. This emulsion has z. B. the composition described above and is from a storage container 18 always held at the same level as the mirror. In this bath, the belt 13 is in the coated with the emulsion as desired and then an exposure drum i9 fed. As it moves around the drum, the tape is passed through an exposure chamber 2o out, in which it is by a suitable light source 21, z. B. a mercury discharge tube or an arc lamp, which is irradiated with active light to keep the light-sensitive. To activate components of the emulsion. The tape is then rolled over suitable rollers fed to a bath 22 which contains an anti-fogging solution such as. B. ammonium bromide in alcohol. The belt 13 passes from this bath via further guide rollers 23 to a washing container 2q., Which appropriately contains pure alcohol. Then got there it via guide rollers 25 to a developing container 26, in which a suitable Developers, e.g. B. pyrogallol in ammoniacal alcohol, and then is it is fed to a further washing container 28 via rollers 27. From this container it comes over rollers 29 to a tank 30 in which the photosensitive layer is fixed, expediently with the aid of a bath of ammonium thiocyanate in ammoniacal Alcohol. Then it will roll over. 31 again fed to a washing container 31a and finally arrives at a roller 33 via a drying channel 32. All of these Rollers and also the drum i9 are of a suitable one, not shown Drive device driven off.

The belt 13 becomes an automatic one after being guided over the roller 33 working cutting device 36 supplied, where it is cut through cross-sections into individual Pieces are cut up, each of which forms a resistance, its ohmic resistance Value of the composition of the photosensitive layer, the duration and the extent corresponds to the exposure.

If the resistance is to be subdivided, e.g. B. after a logarithmic Curve to be able to be used in a variable resistor becomes how already mentioned, a mask i i used, which by means of supports l yes in the lamp chamber 2o is arranged between the light source 21 and the belt 13. When using a such a mask changes the exposure in the transverse direction of the belt accordingly the configuration of the mask such that the top edge of the photosensitive layer in Fig. i is subjected to the strongest exposure as the belt passes, while The smallest exposure occurs near the lower edge. The outermost lower one However, the edge of the tape receives a full exposure. The resulting Graded conductivity of the resistance band is shown in Fig. 2 by the type of shading indicated. The vertical, dash-dotted lines indicate in which Then cut the tape into strips one after the other by the cutting device 33 will. The lower conductive portion 35 forms a low resistance part, which is used to make the connection when installing the resistor to undertake. The other contact. is attached to the top of the strip.

The tape 13 becomes useful either before or after it is cut polished, e.g. B. with the help of soft filter paper or felt or fabric, as shown in Fig. 3 is indicated at 34.

Instead of affecting conductivity by changing the exposure, the influence can also be carried out by choosing the wavelength. 7 .. B. one can use a prism, preferably a quartz prism, in conjunction with a light source use with essentially white light. There is then a spectrum of light on that Tape thrown, reducing the exposure to each part of the tape accordingly is different.

Instead of a special mask, a carrying strap can also be used different transparency can be used. The exposure then takes place through through the ribbon.

It has been described above that the photosensitive layer is applied to a carrier. But it is by no means necessary that the light-sensitive Layer is permanently on the carrier. She can after treatment by the carrier removed. If the light-sensitive layer has sufficient strength no carrier to be used at all.

The fig. 4 shows a variable resistor or potentiometer, in which a resistor according to the invention is used and that of a cylindrical Hollow body 3ä consists, in the inner circumference of the resistance strip io is arranged, either individually or together with other strips in one continuous operation is established. A flexible metal band 39 which is secured against rotational movement, but can move in a radial direction, is used with the aid of a pressure arm 4o rotatable on a control spindle 41 Make contact with any part of the resistor io. The pressure arm 40 carries a button 42 which presses the flexible band 39 against the resistance io. The rotation of the pressure arm 40 causes the button 42 to move around the Belt 39 moved and this part of the beard, which is under the button 42, against the resistor io presses so that each between the two ends 43 and 44 is located Part of the resistor is connected to the flexible band 39. The two ends 43 and 44 of the resistor are connected to the outer connecting lines via solder contacts 45 connected.

Claims (6)

PATTERN CLAIM: z. Process for producing an electrical resistor predetermined size with the help of a mixture, which by exposure and subsequent Developing can be made electrically conductive, characterized in that initially an electrically conductive material with suitable resistance and electrical conductivity in finely divided form or in suspended or dispersed form your convertible Mixture added and then the mixture by exposure and development in a dem desired resistance value is converted to the corresponding extent. 2. Procedure according to claim i, characterized in that to achieve the desired resistance value the mixture is exposed through a mask, stencil, optical wedge or the like which is opposite to delivering electromagnetic radiation of suitable length Illumination source are arranged. 3. The method according to claim i and / or 2, thereby characterized in that the resistor material consists of a photosensitive mixture of bromide silver, chlorine silver, iodized silver or the like and coal with colloidal or approximately colloidal grain size is produced. 4. The method according to claim i to 3, characterized characterized in that the mixture is applied as a conductive layer to a support, e.g. B. off Celluloid, cellulose acetate, paper or the like., Is applied. 5. Procedure according to Claim 4, characterized in that celluloid is used as the carrier, which covered with a photosensitive coating composed of nitrocellulose with a photosensitive mass, e.g. B. bromide silver, and an electrically conductive one Material, e.g. B. coal. 6. Process for the continuous manufacture of electrical Resistors according to Claims i to 5, characterized in that a strip is continuous is passed through a device in which it is connected to a light-sensitive Ground and the layer containing the electrically conductive material is covered, then moves through a chamber in which the activating agents are housed, whereupon the tape is developed, washed, fixed and dried.